NEHRP Clearinghouse

displaying 1 - 6 results in total 6

• A-Grivas, D.
  Program RASSUEL - Reliability Analysis of Soil Slopes Under Earthquake Loading.
  National Science Foundation, Washington, DC. Applied Science and Research Applications., December 1978, 48 p.
  Identifying Number(s): CE-78-6
  Keywords: Landslides; Mathematical models; RASSUEL computer program; Slopes; Earthquake engineering; Earthquakes; Monte Carlo method; PRIME-500 computers; Soil dynamics; Soil erosion; Computer programs; Loads (Forces); Slope stability; IBM-3033 computers

• Wen, Y. K.; Pearce, H. T.
  Stochastic Models for Dependent Load Processes.
  National Science Foundation, Washington, DC., March 1981, 81 p.
  Identifying Number(s): ['STRUCTURAL RESEARCH SER-489', 'UILU-ENG-81-2002']
  Keywords: ; Structures; Random processes; Dynamic loads; Monte Carlo method; Reliability; Storms; Stochastic processes; Earthquakes

• Shah, H. C.; McCann, M. W.
  Bayesian Geophysical Model for Seismic Hazard.
  National Science Foundation, Washington, DC., May 1981, 193 p.
  Identifying Number(s): 47
  Keywords: Probability theory; Seismic hazards; Seismic waves; Fourier transformation; Seismic risk; Earth movements; Ground motion; Earthquake engineering; Monte Carlo method; Earthquakes

• Savy, J. B.
  A Geophysical Model of Strong Motion for Large Ensemble Generation.
  National Science Foundation, Washington, DC., July 1981, 135 p.
  Identifying Number(s): R81-6
  Keywords: Sensitivity analysis; Seismic waves; Mathematical models; Earth movements; Ground motion; Earthquake engineering; Monte Carlo method; Random walk; Earthquakes; Geological faults

• Spanos, P. D.; Mignolet, M. P.
  ARMA (Autoregressive Moving Average) Monte Carlo Simulation in Probabilistic Structural Analysis.
  National Science Foundation, Washington, DC., July 10, 1989, 22 p.
  Identifying Number(s): NCEER-89-0016
  Keywords: Numerical analysis; Probability theory; Earthquake resistant structures; Random input; Earthquake engineering; Monte Carlo method; Stochastic processes; Loads (Forces); Dynamic structural analysis

• Singhal, A.; Kiremidjian, A. S.
  Method for Earthquake Motion-Damage Relationships with Application to Reinforced Concrete Frames.
  National Center for Earthquake Engineering Research, Buffalo, NY.; National Science Foundation, Arlington, VA., September 10, 1997, 256 p.
  Keywords: ; Reinforced concrete; Sensitivity analysis; Gaussian processes; Soil-structure interactions; Fragility; Damage assessment; Bayes theorem; Mathematical models; Autoregressive processes; Probability; Structural failure; Earthquake damage; Concrete structures; Monte Carlo method; Seismic effects; Structural components; Frames; Dynamic response; Ground motion; Earthquake engineering